CN214640919U - Material butt joint positioning and calibrating device for alternating current arc welding machine - Google Patents

Abstract

The utility model provides an exchange material butt joint location calibrating device for electric arc welding machine, arm A is established to the side wall on the base, bearing A is through pivot and the right side wall fixed connection of arm A, arm B is established to the side wall on the base, bearing B is through pivot and the right side wall fixed connection of arm B that stands, arm C is established to the side wall on the base, bearing C is through pivot and the arm C left side wall upper end fixed connection that stands, arm D is established to the side wall on the base 1, bearing D is through pivot and the arm D left side wall upper end fixed connection that stands, bearing subassembly assembly A is established to the lateral wall on the base, bearing subassembly assembly B is established to the lateral wall on the base, set up pipe A between bearing A and the bearing B, set up pipe B between bearing C and the bearing D. The utility model has the advantages that: drive bearing A and bearing B rotation through pipe A, pipe B drives the rotation of holding C and bearing D, more is favorable to pipe A and pipe B's rotation welding, rotates effectual suppression pipe A of in-process and produces vibrations with pipe B, reduces the material disability rate, improves welded efficiency.

Description

Material butt joint positioning and calibrating device for alternating current arc welding machine

Technical Field

The utility model relates to a butt joint location calibrating device especially relates to a material butt joint location calibrating device for alternating current arc welding machine.

Background

The material is according to the material of design size standard length or long or short in welding process, need cut and then weld again, two materials butt joint location of being not convenient for during welding, thereby directly influence welding quality, and when traditional welding set welded, the material of being not convenient for was fixed a position, material welding process is doing benefit to the upset, make the material produce vibrations after the material upset easily, make solder joint dislocation or disconnection lead to the material to scrap, the material consumes greatly, increase the production and processing cost, need the secondary welding, thereby welded efficiency has been reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the utility model provides a material butt joint location calibrating device for alternating current arc welding machine has solved traditional welding set and has welded the time, and the material of being not convenient for is fixed a position, and material welding process does benefit to the upset, makes the material produce vibrations easily behind the material upset for solder joint dislocation or disconnection lead to the material to scrap, and the material consumes greatly, increases the production and processing cost, needs the secondary welding, thereby has reduced the problem of welded efficiency.

The utility model discloses a solve the technical scheme that the problem that the aforesaid provided adopted and be: the utility model provides a material butt joint location calibrating device for alternating current arc welding machine, includes base 1, lateral wall left part vertical fixation sets up upright arm A2 on base 1, bearing A3 through the pivot with upright arm A2 right side wall upper end fixed connection, lateral wall left part vertical fixation sets up upright arm B4 on base 1, upright arm B4 is located upright arm A2 just the rear side, bearing B5 through the pivot with upright arm B4 right side wall upper end fixed connection, leave the clearance between bearing A3 and the bearing B5, lateral wall right part vertical fixation sets up upright arm C6 on base 1, bearing C7 through the pivot with upright arm C6 left side wall upper end fixed connection, lateral wall right part vertical fixation sets up upright arm D8 on base 1, bearing D9 through the pivot with upright arm D8 left side wall upper end fixed connection, leave the clearance between bearing C7 and the bearing D9, the fixed bearing subassembly 10 that sets up in the middle part of lateral wall left side on base 1, bearing subassembly assembly A10 is located found arm A2 and found arm B4's left side, the fixed bearing subassembly assembly B11 that sets up in base 1 side wall right side middle part, bearing subassembly assembly B11 is located found arm C6 and found arm D8's right side, set up pipe A12 between bearing A3 and the bearing B5, the left part of pipe A12 extends to from the right side to the left side the base 1 left side wall outside, just pipe A12 with bearing subassembly assembly A10 cooperatees, set up pipe B13 between bearing C7 and the bearing D9, the right part of pipe B13 extends to from the left to the right side base 1 right side wall outside.

Bearing subassembly assembly A10 including setting up the backup pad A101 at lateral wall left end middle part on the base 1, the fixed sleeve pipe A102 that sets up of lateral wall on the backup pad A101, the left and right direction setting of sleeve pipe A102 opening, guide arm A103 right part slide and run through sleeve pipe A102, the fixed internal thread pipe A104 that sets up in guide arm A103 left end, the upper and lower direction setting of internal thread pipe A104 opening, the rotation of lead screw A105 lower part runs through internal thread pipe A104, lead screw A105 with internal thread pipe A104 thread engagement, the fixed frame groove A106 that sets up in lead screw A105 upper end, the inner chamber in frame groove A106 sets up roller A107, roller A107 through the pivot with the inner chamber wall swivelling joint of frame groove A106, roller A107 with pipe A12 roll cooperation.

Bearing subassembly assembly A10 still including setting up the internal thread pipe B108 of guide arm A103 right-hand member, internal thread pipe B108 opening upper and lower direction sets up, and the rotation of lead screw B109 lower part runs through internal thread pipe B108, lead screw B109 with internal thread pipe B108 thread engagement, lead screw B109 upper end is fixed and is set up frame groove B1010, the inner chamber of frame groove B1010 sets up roller B1011, roller B1011 through the pivot with the inner chamber wall swivelling joint of frame groove B1010, roller B1011 with pipe A12 roll cooperation, be convenient for the comparatively heavy pipe A12 of bearing through bearing subassembly assembly A10, be convenient for upset pipe A12 weld.

Bearing subassembly assembly B11 including setting up the backup pad B111 at lateral wall right-hand member middle part on the base 1, the fixed sleeve pipe B112 that sets up of lateral wall on the backup pad B111, the left and right direction setting of sleeve pipe B112 opening, the slip of the 113 right parts of guide arm B runs through sleeve pipe B112, internal thread pipe C114 is fixed to the 113 left ends of guide arm B, internal thread pipe C114 opening upper and lower direction sets up, and the rotation of lead screw C115 lower part runs through internal thread pipe C114, lead screw C115 with internal thread pipe C114 thread engagement, the fixed frame groove C116 that sets up in lead screw C115 upper end, the inner chamber in frame groove C116 sets up roller C117, roller C117 through the pivot with the inner chamber wall swivelling joint in frame groove C116, roller C117 with pipe B13 roll cooperation.

Bearing subassembly assembly B11 still including setting up the internal thread pipe D118 of guide arm B113 right-hand member, the upper and lower direction setting of internal thread pipe D118 opening, the rotatory running through of lead screw D119 lower part internal thread pipe D118, lead screw D119 with internal thread pipe D118 thread engagement, lead screw D119 upper end is fixed and is set up frame groove D1110, the inner chamber of frame groove D1110 sets up roller D1111, roller D1111 through the pivot with the inner chamber wall swivelling joint of frame groove D1110, roller D1111 with pipe B13 roll cooperation, be convenient for the comparatively heavy pipe B13 of bearing subassembly assembly B11 bearing, be convenient for upset pipe B13 weld.

The lower side wall of the base 1 is fixedly provided with the antiskid plate 14, and the stability of the whole device is effectively improved through the antiskid plate 14.

The utility model discloses a theory of operation: the whole device is placed at a position convenient to operate by a worker, then a round tube A12 is placed between a bearing A3 and a bearing B5, the round tube A10 is used for supporting the far end of the round tube A12 through a supporting component assembly A10, a round tube B13 is placed between a bearing C7 and a bearing D9, the round tube B11 is used for supporting the far end of the round tube B13 through the supporting component assembly B11, the round tube A12 is rotated by the worker to drive a bearing A3 and the bearing B5 to rotate, so that the round tube B13 drives a bearing C7 and a bearing D9 to rotate, the round tube A12 is conveniently supported through a roller A107 by stretching a guide rod A103 leftwards according to the length of the round tube A12, and then the round tube B13 is conveniently supported through a roller D1111 by stretching a guide rod B113 rightwards according to the length of the round tube B13.

The beneficial effects of the utility model reside in that: 1. drive bearing A and bearing B rotation through pipe A, pipe B drives the rotation of holding C and bearing D, more is favorable to pipe A and pipe B's rotation welding, rotates effectual suppression pipe A of in-process and produces vibrations with pipe B, reduces the material disability rate, reduces the material loss, improves welded efficiency. 2. Bearing subassembly assembly A is including setting up the backup pad A at lateral wall left end middle part on the base, the fixed sleeve pipe A that sets up of lateral wall on the backup pad A, the left and right direction setting of sleeve pipe A opening, guide arm A right part slide and run through sleeve pipe A, the fixed internal thread pipe A that sets up in guide arm A left end, the upper and lower direction setting of internal thread pipe A opening, the rotation of lead screw A lower part runs through internal thread pipe A, lead screw A with internal thread pipe A thread engagement, the fixed frame groove A that sets up in lead screw A upper end, frame groove A's inner chamber sets up roller A, roller A through the pivot with frame groove A's inner chamber wall swivelling joint, roller A with pipe A roll cooperation. 3. Bearing subassembly assembly A is still including setting up the internal thread pipe B of guide arm A right-hand member, internal thread pipe B opening upper and lower direction sets up, and the rotation of lead screw B lower part runs through internal thread pipe B, lead screw B with internal thread pipe B thread engagement, the fixed frame groove B that sets up in lead screw B upper end, frame groove B's inner chamber sets up roller B, roller B through the pivot with frame groove B's inner chamber wall swivelling joint, roller B with pipe A roll cooperation is convenient for the comparatively heavy pipe A of bearing through bearing subassembly assembly A, and the pipe A of being convenient for to overturn welds. 4. Bearing subassembly assembly B is including setting up backup pad B at lateral wall right-hand member middle part on the base, the fixed sleeve pipe B that sets up of lateral wall on backup pad B, the left and right direction setting of sleeve pipe B opening, the slide of guide arm B right part runs through sleeve pipe B, the fixed internal thread pipe C in guide arm B left end, the upper and lower direction setting of internal thread pipe C opening, the rotation of lead screw C lower part runs through internal thread pipe C, lead screw C with internal thread pipe C thread engagement, the fixed frame groove C that sets up in lead screw C upper end, the inner chamber in frame groove C sets up roller C, roller C through the pivot with frame groove C's inner chamber wall swivelling joint, roller C with pipe B rolls the cooperation. 5. Bearing subassembly assembly B is still including setting up the internal thread pipe D of guide arm B right-hand member, the upper and lower direction setting of internal thread pipe D opening, the rotatory running through in lead screw D lower part internal thread pipe D, lead screw D with internal thread pipe D thread engagement, the fixed frame groove D that sets up in lead screw D upper end, frame groove D's inner chamber sets up roller D, roller D through the pivot with frame groove D's inner chamber wall swivelling joint, roller D with pipe B roll cooperation is convenient for the comparatively heavy pipe B of bearing through bearing subassembly assembly B, and the pipe B that overturns of being convenient for welds. 6. The fixed antiskid ribbed tile that sets up of base downside wall, through the effectual stability that increases whole device of antiskid ribbed tile.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a rear view structure diagram of the present invention;

fig. 3 is a left side view structure diagram of the present invention;

fig. 4 is a schematic diagram of the right-side view structure of the present invention.

Wherein, 1-base, 2-vertical arm A, 3-bearing A, 4-vertical arm B, 5-bearing B, 6-vertical arm C, 7-bearing C, 8-vertical arm D, 9-bearing D, 10-supporting component assembly A, 101-supporting plate A, 102-sleeve A, 103-guide rod A, 104-internal threaded tube A, 105-screw rod A, 106-frame groove A, 107-roller A, 108-internal threaded tube B, 109-screw rod B, 1010-frame groove B, 1011-roller B, 11-supporting component assembly B, 111-supporting plate B, 112-sleeve B, 113-guide rod B, 114-internal threaded tube C, 115-screw rod C, 116-frame groove C, 117-roller C, 118-internal threaded tube D, 119-screw rod D, 1110-frame groove D, 1111-roller D, 12-round pipe A, 13-round pipe B and 14-antiskid plate.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Referring to fig. 1-4, a material butt-joint positioning calibration device for an ac arc welding machine according to this embodiment includes a base 1, a vertical arm a2 is vertically and fixedly disposed on a left portion of an upper sidewall of the base 1, a bearing A3 is fixedly connected to an upper end of a right sidewall of the vertical arm a2 through a rotating shaft, a vertical arm B4 is vertically and fixedly disposed on the left portion of the upper sidewall of the base 1, the vertical arm B4 is located right behind the vertical arm a2, a bearing B5 is fixedly connected to an upper end of a right sidewall of the vertical arm B4 through a rotating shaft, a gap is left between the bearing A3 and the bearing B5, a vertical arm C6 is vertically and fixedly disposed on a right portion of the upper sidewall of the base 1, a bearing C7 is fixedly connected to an upper end of a left sidewall of the vertical arm C6 through a rotating shaft, a vertical arm D8 is vertically and fixedly disposed on a right portion of the upper sidewall of the base 1, a bearing D9 is fixedly connected to an upper end of a left sidewall of the vertical arm D8 through a rotating shaft, a gap is left between the bearing C7 and the bearing D9, fixed bearing subassembly assembly A10 that sets up in base 1 last side wall left side middle part, bearing subassembly assembly A10 is located found arm A2 and found arm B4's left side, the fixed bearing subassembly assembly B11 that sets up in base 1 last side wall right side middle part, bearing subassembly assembly B11 is located found arm C6 and the right side of standing arm D8, set up pipe A12 between bearing A3 and the bearing B5, the left part of pipe A12 extends to from the right left to the base 1 left side wall outside, just pipe A12 with bearing subassembly assembly A10 cooperatees, set up pipe B13 between bearing C7 and the bearing D9, the right part of left side B13 extends to from the right to the base 1 right side wall outside.

In an optional embodiment, bearing subassembly assembly A10 is including setting up backup pad A101 at lateral wall left end middle part on the base 1, the fixed sleeve pipe A102 that sets up of lateral wall on backup pad A101, sleeve pipe A102 opening left and right direction sets up, and the slide of guide arm A103 right part runs through sleeve pipe A102, the fixed internal thread pipe A104 that sets up in guide arm A103 left end, the setting of upper and lower direction of internal thread pipe A104 opening, the rotation of lead screw A105 lower part runs through internal thread pipe A104, lead screw A105 with internal thread pipe A104 thread engagement, the fixed frame groove A106 that sets up in lead screw A105 upper end, the inner chamber of frame groove A106 sets up roller A107, roller A107 through the pivot with the inner chamber wall swivelling joint of frame groove A106, roller A107 with the circular tube A12 roll cooperation.

In an optional embodiment, bearing subassembly assembly A10 is still including setting up the internal thread pipe B108 of guide arm A103 right-hand member, the direction sets up about internal thread pipe B108 opening, and lead screw B109 lower part is rotatory to be run through internal thread pipe B108, lead screw B109 with internal thread pipe B108 threaded engagement, lead screw B109 upper end is fixed to be set up frame groove B1010, the inner chamber of frame groove B1010 sets up roller B1011, roller B1011 through the pivot with the inner chamber wall swivelling joint in frame groove B1010, roller B1011 with pipe A12 roll cooperation, be convenient for the comparatively heavy pipe A12 of bearing subassembly assembly A10, be convenient for upset pipe A12 welds.

In an optional embodiment, the supporting component assembly B11 includes a supporting plate B111 disposed at the middle of the right end of the upper side wall of the base 1, a sleeve B112 is fixedly disposed on the upper side wall of the supporting plate B111, the left and right directions of the opening of the sleeve B112 are set, the right portion of the guide rod B113 slides through the sleeve B112, an internal threaded tube C114 is fixed at the left end of the guide rod B113, the upper and lower directions of the opening of the internal threaded tube C114 are set, the lower portion of a lead screw C115 rotates through the internal threaded tube C114, the lead screw C115 is in threaded engagement with the internal threaded tube C114, a frame groove C116 is fixedly disposed at the upper end of the lead screw C115, a roller C117 is disposed in the inner cavity of the frame groove C116, the roller C117 is rotatably connected with the inner cavity wall of the frame groove C116 through a rotating shaft, and the roller C117 is in rolling fit with the circular tube B13.

In an alternative embodiment, the supporting component assembly B11 further comprises an internal threaded tube D118 disposed at the right end of the guide rod B113, the internal threaded tube D118 is disposed up and down, the lower portion of the screw rod D119 is rotatably extended through the internal threaded tube D118, the screw rod D119 is in threaded engagement with the internal threaded tube D118, the upper end of the screw rod D119 is fixedly disposed with a frame trough D1110, the inner cavity of the frame trough D1110 is disposed with a roller D1111, the roller D1111 is rotatably connected with the inner cavity wall of the frame trough D1110 through a rotating shaft, the roller D1111 is in rolling engagement with the round tube B13, and the supporting component assembly B11 is used for supporting the heavier round tube B13 and for turning over the round tube B13 for welding.

In an alternative embodiment, the lower side wall of the base 1 is fixedly provided with the antiskid plate 14, and the stability of the whole device is effectively increased through the antiskid plate 14.

The working principle of the specific embodiment is as follows: the whole device is placed at a position convenient to operate by a worker, then a round tube A12 is placed between a bearing A3 and a bearing B5, the round tube A10 is used for supporting the far end of the round tube A12 through a supporting component assembly A10, a round tube B13 is placed between a bearing C7 and a bearing D9, the round tube B11 is used for supporting the far end of the round tube B13 through the supporting component assembly B11, the round tube A12 is rotated by the worker to drive a bearing A3 and the bearing B5 to rotate, so that the round tube B13 drives a bearing C7 and a bearing D9 to rotate, the round tube A12 is conveniently supported through a roller A107 by stretching a guide rod A103 leftwards according to the length of the round tube A12, and then the round tube B13 is conveniently supported through a roller D1111 by stretching a guide rod B113 rightwards according to the length of the round tube B13.

The beneficial effects of the utility model reside in that: 1. drive bearing A and bearing B rotation through pipe A, pipe B drives the rotation of holding C and bearing D, more is favorable to pipe A and pipe B's rotation welding, rotates effectual suppression pipe A of in-process and produces vibrations with pipe B, reduces the material disability rate, reduces the material loss, improves welded efficiency. 2. Bearing subassembly assembly A is including setting up the backup pad A at lateral wall left end middle part on the base, the fixed sleeve pipe A that sets up of lateral wall on the backup pad A, the left and right direction setting of sleeve pipe A opening, guide arm A right part slide and run through sleeve pipe A, the fixed internal thread pipe A that sets up in guide arm A left end, the upper and lower direction setting of internal thread pipe A opening, the rotation of lead screw A lower part runs through internal thread pipe A, lead screw A with internal thread pipe A thread engagement, the fixed frame groove A that sets up in lead screw A upper end, frame groove A's inner chamber sets up roller A, roller A through the pivot with frame groove A's inner chamber wall swivelling joint, roller A with pipe A roll cooperation. 3. Bearing subassembly assembly A is still including setting up the internal thread pipe B of guide arm A right-hand member, internal thread pipe B opening upper and lower direction sets up, and the rotation of lead screw B lower part runs through internal thread pipe B, lead screw B with internal thread pipe B thread engagement, the fixed frame groove B that sets up in lead screw B upper end, frame groove B's inner chamber sets up roller B, roller B through the pivot with frame groove B's inner chamber wall swivelling joint, roller B with pipe A roll cooperation is convenient for the comparatively heavy pipe A of bearing through bearing subassembly assembly A, and the pipe A of being convenient for to overturn welds. 4. Bearing subassembly assembly B is including setting up backup pad B at lateral wall right-hand member middle part on the base, the fixed sleeve pipe B that sets up of lateral wall on backup pad B, the left and right direction setting of sleeve pipe B opening, the slide of guide arm B right part runs through sleeve pipe B, the fixed internal thread pipe C in guide arm B left end, the upper and lower direction setting of internal thread pipe C opening, the rotation of lead screw C lower part runs through internal thread pipe C, lead screw C with internal thread pipe C thread engagement, the fixed frame groove C that sets up in lead screw C upper end, the inner chamber in frame groove C sets up roller C, roller C through the pivot with frame groove C's inner chamber wall swivelling joint, roller C with pipe B rolls the cooperation. 5. Bearing subassembly assembly B is still including setting up the internal thread pipe D of guide arm B right-hand member, the upper and lower direction setting of internal thread pipe D opening, the rotatory running through in lead screw D lower part internal thread pipe D, lead screw D with internal thread pipe D thread engagement, the fixed frame groove D that sets up in lead screw D upper end, frame groove D's inner chamber sets up roller D, roller D through the pivot with frame groove D's inner chamber wall swivelling joint, roller D with pipe B roll cooperation is convenient for the comparatively heavy pipe B of bearing through bearing subassembly assembly B, and the pipe B that overturns of being convenient for welds. 6. The fixed antiskid ribbed tile that sets up of base downside wall, through the effectual stability that increases whole device of antiskid ribbed tile.

The utility model discloses a concrete embodiment does not constitute the pair the utility model discloses a restriction, all adopt the utility model discloses a similar structure and change are all in the utility model discloses a within the protection scope.

Claims (6)

1. The utility model provides a material butt joint location calibrating device for alternating current arc welding machine, includes base (1), its characterized in that: the vertical fixing device is characterized in that a vertical arm A (2) is vertically fixedly arranged at the left part of the upper side wall of the base (1), a bearing A (3) is fixedly connected with the upper end of the right side wall of the vertical arm A (2) through a rotating shaft, a vertical arm B (4) is vertically fixedly arranged at the left part of the upper side wall of the base (1), the vertical arm B (4) is positioned at the positive rear side of the vertical arm A (2), the bearing B (5) is fixedly connected with the upper end of the right side wall of the vertical arm B (4) through a rotating shaft, a gap is reserved between the bearing A (3) and the bearing B (5), a vertical arm C (6) is vertically fixedly arranged at the right part of the upper side wall of the base (1), a vertical arm D (8) is vertically fixedly arranged at the right part of the upper side wall of the base (1), a bearing D (9) is fixedly connected with the upper end of the left side wall of the vertical arm D (8) through a rotating shaft, a gap is reserved between the bearing C (7) and the bearing D (9), a bearing component assembly A (10) is fixedly arranged in the middle of the left side of the upper side wall of the base (1), the bearing component assembly A (10) is positioned on the left side of the vertical arm A (2) and the vertical arm B (4), a bearing component assembly B (11) is fixedly arranged in the middle of the right side of the upper side wall of the base (1), the supporting component assembly B (11) is positioned at the right side of the vertical arm C (6) and the vertical arm D (8), a round pipe A (12) is arranged between the bearing A (3) and the bearing B (5), the left part of the circular tube A (12) extends to the outer side of the left side wall of the base (1) from right to left, and the round tube A (12) is matched with the supporting component assembly A (10), a round pipe B (13) is arranged between the bearing C (7) and the bearing D (9), the right part of pipe B (13) extends to from left to right base (1) right side wall outside.

2. The material butt positioning calibration device for the alternating current arc welding machine according to claim 1, characterized in that: the bearing component assembly A (10) comprises a support plate A (101) arranged at the middle part of the left end of the upper side wall of the base (1), a sleeve A (102) is fixedly arranged on the upper side wall of the support plate A (101), the left direction and the right direction of the opening of the sleeve A (102) are arranged, the right part of a guide rod A (103) slides to penetrate through the sleeve A (102), an internal thread pipe A (104) is fixedly arranged at the left end of the guide rod A (103), the upper direction and the lower direction of the opening of the internal thread pipe A (104) are arranged, the lower part of a screw rod A (105) rotates to penetrate through the internal thread pipe A (104), the screw rod A (105) is in threaded engagement with the internal thread pipe A (104), a frame groove A (106) is fixedly arranged at the upper end of the screw rod A (105), a roller A (107) is arranged in the inner cavity of the frame groove A (106), and the roller A (107) is connected with the inner cavity wall of the frame groove A (106) in a rotating way through a rotating shaft, the roller A (107) is matched with the circular tube A (12) in a rolling way.

3. The material butt positioning calibration device for the alternating current arc welding machine according to claim 2, characterized in that: bearing subassembly assembly A (10) still including setting up the internal thread pipe B (108) of guide arm A (103) right-hand member, the direction sets up about internal thread pipe B (108) opening, and lead screw B (109) lower part is rotatory to be run through internal thread pipe B (108), lead screw B (109) with internal thread pipe B (108) thread engagement, lead screw B (109) upper end is fixed and is set up frame groove B (1010), the inner chamber of frame groove B (1010) sets up roller B (1011), roller B (1011) through the pivot with the inner chamber wall swivelling joint of frame groove B (1010), roller B (1011) with pipe A (12) roll cooperation.

4. The material butt positioning calibration device for the alternating current arc welding machine according to claim 1, characterized in that: bearing subassembly assembly B (11) including setting up backup pad B (111) at lateral wall right-hand member middle part on base (1), the fixed sleeve pipe B (112) that sets up of lateral wall is gone up to backup pad B (111), sleeve pipe B (112) opening left and right direction sets up, guide arm B (113) right part slides and runs through sleeve pipe B (112), internal thread pipe C (114) is fixed at the guide arm B (113) left end, internal thread pipe C (114) opening upper and lower direction sets up, lead screw C (115) lower part is rotatory to run through internal thread pipe C (114), lead screw C (115) with internal thread pipe C (114) thread engagement, lead screw C (115) upper end is fixed and is set up frame groove C (116), the inner chamber of frame groove C (116) sets up roller C (117), roller C (117) through the pivot with the inner chamber wall swivelling joint of frame groove C (116), the roller C (117) is matched with the round pipe B (13) in a rolling way.

5. The material butt positioning calibration device for the alternating current arc welding machine according to claim 4, characterized in that: bearing subassembly assembly B (11) still including setting up the internal thread pipe D (118) of guide arm B (113) right-hand member, the upper and lower direction setting of internal thread pipe D (118) opening, lead screw D (119) lower part is rotatory to be run through internal thread pipe D (118), lead screw D (119) with internal thread pipe D (118) thread engagement, lead screw D (119) upper end is fixed and is set up frame groove D (1110), the inner chamber of frame groove D (1110) sets up roller D (1111), roller D (1111) through the pivot with the inner chamber wall swivelling joint of frame groove D (1110), roller D (1111) with pipe B (13) roll cooperation.

6. The material butt positioning calibration device for the alternating current arc welding machine according to claim 1, characterized in that: the lower side wall of the base (1) is fixedly provided with an antiskid plate (14).

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